Entitled “Buoyant actuator,” the ’712 Application is directed to a wave energy apparatus (11) including a buoyant actuator (19) with an exterior surface and an interior that is substantially hollow except for a buoyant internal support structure.

A major advantage of the technology, according to the ’712 Application is that the substantially hollow nature of the buoyant actuator makes it “lightweight compared to prior art floats.”

The exterior surface comprises a plurality of facets (101), which are tessellated to “create the generally spherical shape (somewhat similar to that of a soccer ball)…” According to the ’712 Application, one embodiment of the apparatus has 36 facets, of which 12 are pentagonal and 24 are hexagonal.

The apparatus is installed for operation in a body of seawater (12) having a water surface (13) and a seabed (14), and exterior surface of the apparatus has a plurality of openings for fluid flow between the hollow interior and the surrounding body of water.

Pumps (15) are anchored within the body of water (12), attached to a base (17) anchored to the seabed (14), and operatively connected to the buoyant actuator (19) by a coupling (21) including a tether (23). Each pump (15) is activated by movement of the buoyant actuator (19) in response to wave motion.

The pumps (15) provide high pressure water, which can be used for power generation and/or desalination. Indeed, Carnegie’s desalination pilot project at the Garden Island naval base near Perth will use the high pressure water to operate reverse osmosis desalination technology.

This will be a world first, according to the CleanTechnica piece, and an elegant clean tech double bill.